/*=========================================================================

  Program:   Visualization Toolkit
  Module:    vtkSpanSpace.h

  Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
  All rights reserved.
  See Copyright.txt or http://www.kitware.com/Copyright.htm for details.

     This software is distributed WITHOUT ANY WARRANTY; without even
     the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
     PURPOSE.  See the above copyright notice for more information.

=========================================================================*/
// .NAME vtkSpanSpace - organize data according to scalar span space
// .SECTION Description
// This is a helper class used to accelerate contouring operations. Given an
// dataset, it organizes the dataset cells into a 2D binned space, with axes
// (scalar_min,scalar_max). This so-called span space can then be traversed
// quickly to find the cells that intersect a particular contour value.
//
// This class has an API that supports both serial and parallel
// operation.  The parallel API enables the using class to grab arrays
// (or batches) of cells that lie along a particular row in the span
// space. These arrays can then be processed separately in parallel.
//
// Learn more about span space in these two publications: 1) "A Near
// Optimal Isosorface Extraction Algorithm Using the Spsn Space."
// Yarden Livnat et al. and 2) Isosurfacing in SPan Space with Utmost
// Efficiency." Han-Wei Shen et al.

// .SECTION See Also
// vtkSimpleScalarTree


#ifndef vtkSpanSpace_h
#define vtkSpanSpace_h

#include "vtkCommonExecutionModelModule.h" // For export macro
#include "vtkScalarTree.h"

class vtkInternalSpanSpace;


class VTKCOMMONEXECUTIONMODEL_EXPORT vtkSpanSpace : public vtkScalarTree
{
public:
  // Description:
  // Instantiate a scalar tree with default number of rows of 100.
  static vtkSpanSpace *New();

  // Description:
  // Standard type related macros and PrintSelf() method.
  vtkTypeMacro(vtkSpanSpace,vtkScalarTree);
  void PrintSelf(ostream& os, vtkIndent indent);

  //----------------------------------------------------------------------
  // The following methods are specific to the creationg and configuration of
  // vtkSpanSpace.

  // Description:
  // Set/Get the resolution N of the span space. The span space can be
  // envisioned as a rectangular lattice of NXN buckets (i.e., N rows
  // and N columns), where each bucket stores a list of cell ids. The
  // i-j coordinate of each cell (hence its location in the lattice)
  // is determined from the cell's 2-tuple (smin,smax) scalar range.
  // By default Resolution = 100.
  vtkSetClampMacro(Resolution,vtkIdType,1,VTK_INT_MAX);
  vtkGetMacro(Resolution,vtkIdType);

  //----------------------------------------------------------------------
  // The following methods satisfy the vtkScalarTree abstract API.

  // Description:
  // Initialize locator. Frees memory and resets object as appropriate.
  virtual void Initialize();

  // Description:
  // Construct the scalar tree from the dataset provided. Checks build times
  // and modified time from input and reconstructs the tree if necessary.
  virtual void BuildTree();

  // Description:
  // Begin to traverse the cells based on a scalar value. Returned cells
  // will have scalar values that span the scalar value specified. Note this
  // method must be called prior to parallel or serial traversal since it
  // specifies the scalar value to be extracted.
  virtual void InitTraversal(double scalarValue);

  // Description:
  // Return the next cell that may contain scalar value specified to
  // InitTraversal(). The value NULL is returned if the list is
  // exhausted. Make sure that InitTraversal() has been invoked first or
  // you'll get erratic behavior. This is inherently a serial operation.
  virtual vtkCell *GetNextCell(vtkIdType &cellId, vtkIdList* &ptIds,
                               vtkDataArray *cellScalars);

  // The following methods supports parallel (threaded)
  // applications. Basically batches of cells (which represent a
  // portion of the whole dataset) are available for processing in a
  // parallel For() operation. In the case of span space, a batch is
  // taken from a portion of the span rectangle.

  // Description:
  // Get the number of cell batches available for processing. Note
  // that this methods should be called after InitTraversal(). This is
  // because the number of batches available is typically a function
  // of the isocontour value. Note that the cells found in
  // [0...(NumberOfCellBatches-1)] will contain all the cells
  // potentially containing the isocontour.
  virtual vtkIdType GetNumberOfCellBatches();

  // Description:
  // Return the array of cell ids in the specified batch. The method
  // also returns the number of cell ids in the array. Make sure to
  // call InitTraversal() beforehand.
  virtual const vtkIdType* GetCellBatch(vtkIdType batchNum,
                                        vtkIdType& numCells);

protected:
  vtkSpanSpace();
  ~vtkSpanSpace();

  vtkIdType Resolution;
  vtkInternalSpanSpace *SpanSpace;
  vtkIdType BatchSize;

private:
  // Internal variables supporting span space traversal
  vtkIdType RMin[2]; //span space lower left corner
  vtkIdType RMax[2]; //span space upper right corner
  vtkIdType NumBuckets; //number of span space bins

  // This supports serial traversal via GetNextCell()
  vtkIdType CurrentRow; //the span space row currently being processed
  vtkIdType *CurrentSpan; //pointer to current span row
  vtkIdType CurrentIdx; //position into the current span row
  vtkIdType CurrentNumCells; //number of cells on the current span row

private:
  vtkSpanSpace(const vtkSpanSpace&);  // Not implemented.
  void operator=(const vtkSpanSpace&);  // Not implemented.
};

#endif
